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Raman response and shear viscosity in the non-Fermi liquid phase of Luttinger semimetals

Ipsita Mandal, Hermann Freire

2022Journal of Physics Condensed Matter18 citationsDOIOpen Access PDF

Abstract

Luttinger semimetals represent materials with strong spin-orbit coupling, harboring doubly-degenerate quadratic band touchings at the Brillouin zone center. In the presence of Coulomb interactions, such a system exhibits a non-Fermi liquid phase [dubbed as the Luttinger-Abrikosov-Beneslavskii (LAB) phase], at low temperatures and zero doping. However, a clear experimental evidence of this emergent state remains elusive to this date. Hence, we focus on extracting the Raman response as a complementary experimental signature. At frequencies much larger than the temperature, the Raman response exhibits a power-law behavior, which can be verified experimentally. On the other hand, at lower frequencies, the Raman response displays a quasi-elastic peak. We also compute the ratio of the shear viscosity and the entropy density, and the value obtained is a consequence of the hyperscaling violation that emerges in the LAB phase.

Topics & Concepts

Luttinger liquidCondensed matter physicsRaman spectroscopySemimetalViscosityShear (geology)Fermi liquid theoryPhysicsFermi Gamma-ray Space TelescopePhase (matter)Materials scienceThermodynamicsQuantum mechanicsComposite materialSuperconductivityBand gapElectronTopological Materials and PhenomenaGraphene research and applicationsQuantum Mechanics and Non-Hermitian Physics
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